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  1. Mεtascience: Scientific General Discourse - No. 2 - Metascientific Ontology.François Maurice - 2022 - Mεtascience: Scientific General Discourse 2:1-260.
    [[THIS IS THE COMPLETE SECOND ISSUE OF MΕTASCIENCE]] -/- This second issue of the journal Mεtascience continues the char acterization of this new branch of knowledge that is metasci ence. If it is new, it is not in a radical sense since Mario Bunge practiced it in an exemplary way, since logical positivists were accused of practicing only a mere metascience, since scientists have always practiced it implicitly, and since some philosophers no longer practice philosophy but rather metascience, but without (...)
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  • What Is Metascientific Ontology?François Maurice - 2022 - Mεtascience: Scientific General Discourse 2:22-44.
    Metascientific ontology differs from philosophical ontologies in its objectives, objects and methods. By an examination of the ontological theories of Mario Bunge, we will show their main objective is a unified representation of the world as known through the sciences, that their objects of study are scientific concepts, and that their methods do not differ from those that one expects to find in any rational activity. Metascientific ontology is therefore not transcendent because it does not seek to represent non-concrete objects (...)
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  • Qu'est-ce que l'ontologie métascientifique?François Maurice - 2022 - Mεtascience: Discours Général Scientifique 2:19-43.
    L’ontologie métascientifique se distingue des ontologies philosophiques par ses objectifs, ses objets et ses méthodes. Par un examen des théories ontologiques de Mario Bunge, nous montrerons que leur principal objectif est l’élaboration d’une représentation unifiée du monde tel que connu via les sciences, que leurs objets d’étude sont les concepts scientifiques, et que leurs méthodes ne diffèrent pas de celles qu’on s’attend à trouver dans toute activité rationnelle. L’ontologie métascientifique n’est donc pas transcendante parce qu’elle ne cherche pas à représenter (...)
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  • Physics and Philosophy of Physics in the Work of Mario Bunge.Gustavo E. Romero - 2019 - In Michael Robert Matthews (ed.), Mario Bunge: A Centenary Festschrift. Springer. pp. 289-301.
    This brief review of Mario Bunge’s research on physics begins with an analysis of his masterpiece Foundations of Physics, and then it discusses his other contributions to the philosophy of physics. Following that is a summary of his more recent reactions to scientific discoveries in physics and a discussion of his position about non-locality in quantum mechanics, as well as his changing opinions on the nature of spacetime. The paper ends with a brief assessment of Bunge’s legacy concerning the foundations (...)
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  • Gravitational Energy in Newtonian Gravity: A Response to Dewar and Weatherall.Patrick M. Duerr & James Read - 2019 - Foundations of Physics 49 (10):1086-1110.
    The paper investigates the status of gravitational energy in Newtonian Gravity, developing upon recent work by Dewar and Weatherall. The latter suggest that gravitational energy is a gauge quantity. This is potentially misleading: its gauge status crucially depends on the spacetime setting one adopts. In line with Møller-Nielsen’s plea for a motivational approach to symmetries, we supplement Dewar and Weatherall’s work by discussing gravitational energy–stress in Newtonian spacetime, Galilean spacetime, Maxwell-Huygens spacetime, and Newton–Cartan Theory. Although we ultimately concur with Dewar (...)
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  • Thermodynamics and Mechanical Equivalent of Heat.Nahum Kipnis - 2014 - Science & Education 23 (10):2007-2044.
    This paper is the first part of a three-part project ‘How the principle of energy conservation evolved between 1842 and 1870: the view of a participant’. This paper aims at showing how the new ideas of Mayer and Joule were received, what constituted the new theory in the period under study, and how it was supported experimentally. A connection was found between the new theory and thermodynamics which benefited both of them. Some considerations are offered about the desirability of taking (...)
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  • International Handbook of Research in History, Philosophy and Science Teaching.Michael R. Matthews (ed.) - 2014 - Springer.
    This inaugural handbook documents the distinctive research field that utilizes history and philosophy in investigation of theoretical, curricular and pedagogical issues in the teaching of science and mathematics. It is contributed to by 130 researchers from 30 countries; it provides a logically structured, fully referenced guide to the ways in which science and mathematics education is, informed by the history and philosophy of these disciplines, as well as by the philosophy of education more generally. The first handbook to cover the (...)
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  • How does it work?: The search for explanatory mechanisms.Mario Bunge - 2004 - Philosophy of the Social Sciences 34 (2):182-210.
    This article addresses the following problems: What is a mechanism, how can it be discovered, and what is the role of the knowledge of mechanisms in scientific explanation and technological control? The proposed answers are these. A mechanism is one of the processes in a concrete system that makes it what it is — for example, metabolism in cells, interneuronal connections in brains, work in factories and offices, research in laboratories, and litigation in courts of law. Because mechanisms are largely (...)
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  • Dark matter = modified gravity? Scrutinising the spacetime–matter distinction through the modified gravity/ dark matter lens.Niels C. M. Martens & Dennis Lehmkuhl - 2020 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 72:237-250.
    This paper scrutinises the tenability of a strict conceptual distinction between space and matter via the lens of the debate between modified gravity and dark matter. In particular, we consider Berezhiani and Khoury's novel 'superfluid dark matter theory' as a case study. Two families of criteria for being matter and being spacetime, respectively, are extracted from the literature. Evaluation of the new scalar field postulated by SFDM according to these criteria reveals that it is as much matter as anything could (...)
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  • Towards a Refined Depiction of Nature of Science.Igal Galili - 2019 - Science & Education 28 (3-5):503-537.
    This study considers the short list of Nature of Science features frequently published and widely known in the science education discourse. It is argued that these features were oversimplified and a refinement of the claims may enrich or sometimes reverse them. The analysis shows the need to address the range of variation in each particular aspect of NOS and to illustrate these variations with actual events from the history of science in order to adequately present the subject. Another implication of (...)
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  • Teaching About Energy.Orlando Aguiar, Hannah Sevian & Charbel N. El-Hani - 2018 - Science & Education 27 (9-10):863-893.
    In this article, we draw upon the Conceptual Profile Theory to discuss the negotiation of meanings related to the energy concept in an 11th grade physics classroom. This theory is based on the heterogeneity of verbal thinking, that is, on the idea that any individual or society does not represent concepts in a single way. According to this perspective, the processes of conceptualization consist of the use of a repertoire of different socially stabilized signifiers, adjusted to the context in which (...)
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  • Teaching the Philosophical and Worldview Components of Science.Michael R. Matthews - 2009 - Science & Education 18 (6-7):697-728.
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  • The Role of Metaphysical Naturalism in Science.Martin Mahner - 2012 - Science & Education 21 (10):1437–1459.
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  • Mario Bunge, Systematic Philosophy and Science Education: An Introduction.Michael R. Matthews - 2012 - Science & Education 21 (10):1393-1403.
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  • On the Concept of Energy: Eclecticism and Rationality.Ricardo Lopes Coelho - 2014 - Science & Education 23 (6):1361-1380.
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  • On the Concept of Energy: How Understanding its History can Improve Physics Teaching.Ricardo Lopes Coelho - 2009 - Science & Education 18 (8):961-983.
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  • Re-examination of Fundamental Concepts of Heat, Work, Energy, Entropy, and Information Based on NGST.Pan Lingli & Cui Weicheng - 2022 - Philosophy Study 12 (1).
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  • An Analysis of the Ontological Causal Relation in Physics and Its Educational Implications.Yong Cheong - 2016 - Science & Education 25 (5-6):611-628.
    An ontological causal relation is a quantified relation between certain interactions and changes in corresponding properties. Key ideas in physics, such as Newton’s second law and the first law of thermodynamics, are representative examples of these relations. In connection with the teaching and learning of these relations, this study investigated three issues: the appropriate view concerning ontological category, the role and status of ontological causal relations, and university students’ understanding of the role and status of these relations. Concerning the issue (...)
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  • Mario Bunge: physicist and philosopher.Michael R. Matthews - 2003 - Science & Education 12 (5-6):431-444.
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